February 6, 2020
Inkjet printing technology for battery elements
A group of St. Petersburg scientists has proposed a new method of manufacturing electrodes for lithium-ion batteries that power laptops, smartphones and tablets. The researchers have shown that these elements can be printed with an inkjet printer, which will reduce the electrode thickness by 10 to 20 times and open up new possibilities for manufacturers of compact electronics. Their article has been published in the journal Energy Technology.
Researchers are pursuing higher capacities for lithium-ion batteries while making them lighter and more compact. The battery's size and capacity determines how heavy a laptop will be, how much time a smartphone can function between recharge cycles, and the distance an electric car can travel. Standard manufacturing methods for lithium-ion batteries do not allow for a significant increase in their weight or size without a corresponding loss in their battery capacity. Thus, a change in the production of battery components is necessary.
The scientists from ITMO University, Peter the Great St. Petersburg Polytechnic University and the Ioffe Institute have proposed a technology by which the thickness of the cathode material level could be reduced by 10 or even 20 times. This will provide an opportunity to reduce the size and weight of the entire battery, as a standard tablet or laptop battery can have hundreds of these layers.
"We've developed the ink for inkjet printing of the cathode material," says Denis Kolchanov, a Ph.D. student at ITMO's SCAMT Laboratory, who co-authored the article. "We've managed to apply a layer of about 5 micrometers in thickness on the current collector. Existing industrial samples use cathode materials with a thickness of 100 micrometers. Laboratory samples created on the basis of other technologies give a thickness of 50 micrometers. Therefore, we were able to reduce the thickness by 10 to 20 times. It's not possible to make a smaller layer with this technology, because a short circuit will occur."
The researchers have recently confirmed the operability of the printed cathode material in order to prove that the technology can be used to create a smaller working battery with similar properties.
In theory, this development can have another useful effect. The printing of ultra-thin current collectors with a cathode material would allow scientists to create a flexible battery that does not deform when bent. This is important, because today, high-tech companies face a difficult challenge: On the one hand, users want their gadgets to be lightweight and compact; on the other, people enjoy watching pictures and videos from as large a screen as possible. Apart from that, there is a growing demand for transformer devices that can be used both as tablets and laptops. Foldable and extendable gadgets are designed to solve these problems. Such devices were presented at the CES 2020 exhibition that took place at the very beginning of 2020.
In order to develop such a device, engineers have to think not only about its screen and case, but also the placement of a standard lithium-ion battery. Ideally, the battery of the transformer tablet should bend along with the case.
"In theory, our development can be used to create such devices," explains Denis Kolchanov. "There is a huge possibility that thin electrodes will be more flexible since they will not deform when bent. This will allow us to use them in transformer devices."